Frank W. Tischendorf

Lipopolysaccharide-like molecules derived from Wolbachia endobacteria of the filaria Onchocerca volvulus are candidate mediators in the sequence of inflammatory and antiinflammatory responses of human monocytes.

The majority of Onchocerca volvulus-infected persons show signs of cellular anergy, and long-time survival of adult and larval parasites in subcutaneous tissue is observed. The mechanisms leading to immunological hyporesponsiveness are poorly understood. Monocytes/macrophages represent a link between the innate and acquired immune system and are candidate cells to promote inflammatory and antiinflammatory processes. In the present study we have shown that products of microfilarial (O. volvulus) and adult (O. volvulus and O. ochengi) parasites affect monocytes in vitro. An early production of TNF-alpha by exposed monocytes was followed by the production of IL-10 and a reduced expression of HLA-DR and the costimulatory molecules B7-1 and B7-2, while other adhesion receptors remained unaffected. Downregulation of the functional membrane receptors failed to occur after treatment of the cells with anti-IL-10 antibodies. The engagement of CD14, a dominant membrane receptor on monocytes and major binding protein for lipopolysaccharides, was indicated by partial blocking of monocyte modulation by neutralizing antibodies to CD14 and by the antagonistic lipid A analog compound 406. Lipopolysaccharide-like molecules were detected in sterile products of O. volvulus stages which could originate from Wolbachia bacteria related to Gram-negative Rickettsiales, known to be abundant in the hypodermis and the female reproductive organs of O. volvulus. The present results indicate that the monocyte/macrophage may be a major target cell for immunomodulatory parasite-derived and intraparasitic, bacteria-derived molecules, thereby contributing to the hosts cellular hyporesponsiveness.

Eosinophil-larval-interaction in onchocerciasis: heterogeneity of in vitro adherence of eosinophils to infective third and fourth stage larvae and microfilariae of Onchocerca volvulus.

Summary Adherence of eosinophilic granulocytes from patients with onchocerciasis to microfilariae (Mf), third (L3) and fourth (L4) stage larvae of Onchocerca volvulus was studied in vitro. Native and heat‐inactivated sera from patients with onchocerciasis (OS), from endemic controls without signs of the disease (ECS), from healthy Caucasians (NS) or foetal calf serum (FCS) served as sources for adherence mediating factors. In FCS‐supplemented medium eosinophils did not adhere to any larvae. None of the sera mediated the adherence of eosinophils to L4. Eosinophils adhered to L3 in the presence of OS, ECS and NS, whereas OS exclusively mediated adherence to Mf. Reduced adherence rates of eosinophils to L3 occurred in heat‐inactivated or zymosan‐activated OS, ECS or CS. Eosinophils bound to the L3 cuticle of moulting stage but not lo the newly exposed L4 cuticle. A single adherent layer of effector cells was found around cast L3 cuticle, multiple layers were found around intact L3 leading to subsequent paralysis of the larvae and to an amplification of the toxic effector potential by homotypic intereosinophilic adhesion. Our experiments document heterogeneity of in vitro effector cell adherence to the three larval stages of O. volvulus and indicate that complement‐dependent as well as independent mechanisms arc operative in eosinophil‐larval‐interaction. The results emphasize the importance of the invading infective larval stages of O. volvulus as possible targets for vaccine production.

Serum levels of eosinophil cationic protein, eosinophil-derived neurotoxin and myeloperoxidase in infections with filariea and schistosomes

The serum levels of three major granulocyte proteins were measured in patients with onchocerciasis, bancroftian filariasis and intestinal schistosomiasis and compared to controls from patients with malaria, Africans living in areas not endemic for these infections and healthy Germans. The investigation comprised the determination of the eosinophil granule proteins eosinophil cationic protein (ECP) and eosinophil-derived neurotoxin (EDN/EPX), and the neutrophil/monocyte granule protein myeloperoxidase (MPO). ECP and EDN/EPX levels were found elevated only in the three helminth infections that are associated with eosinophilia, while MPO was found elevated in all tested disease groups. The levels of eosinophil granule proteins observed in the helminth diseases by far exceeded those described for bronchial asthma and atopic dermatitis. ECP, EDN/EPX and MPO serum levels reflect the ongoing disease and are related to functional activity of the respective leukopoetic system. ECP and EDN/EPX appear to be markers of the eosinophil effector system and MPO a marker of the neutrophil and/or monocyte/macrophage effector system. Significantly higher ECP levels in chronic hyperreactive onchodermatitis (sowda) versus generalized onchocerciasis seem to reflect an augmented degree of antigenic stimulation, eosinophil activation and eosinophil turnover rates, indicating a more active mechanism of parasite clearance in sowda patients.

Serum-dependent interaction of granulocytes with Onchocerca volvulus microfilariae in generalized and chronic hyper-reactive onchocerciasis and its modulation by diethylcarbamazine

The adherence and cytotoxicity of granulocytes to microfilariae of Onchocerca volvulus were examined in vitro. Reactivity and modulation by diethylcarbamazine of isolated eosinophilic and neutrophilic granulocytes from patients with generalized and chronic hyper-reactive onchocerciasis (sowda or localized form) from endemic foci in Liberia were evaluated under varying serum conditions. In the presence of pooled sera from patients with generalized onchocerciasis granulocytes from both polar groups of patients exhibited similar adherence rates, whereas immobilization rates were higher for eosinophils than for neutrophils. In localized onchocerciasis, the use of autologous serum resulted in a significant decrease in adherence and immobilization rates for both eosinophils and neutrophils. After preincubation of eosinophils, but not of microfilariae, with diethylcarbamazine autologous serum-mediated adherence and cytotoxicity were enhanced to rates similar to those found with pooled serum from individuals with generalized onchocerciasis. These results suggest that granulocytes from both forms of onchocerciasis did not differ with respect to their anti-parasitic reactivity and that antibodies as well as additional serum factors appear to contribute to the functional activity of these effector cells. The findings indicate that predominantly eosinophils, compared to neutrophils, damage the larvae of O. volvulus and support earlier observations which suggest that diethylcarbamazine influences the effector cells rather than the parasite itself.

Comparative study of eosinophil purification on Nycodenz, Metrizamide and Percoll density gradients.

Studies on the metabolism of human eosinophils and their interaction with helminthic parasites have been hampered by the difficulty in obtaining these granulocytes in sufficient purity and quantity. In this report, we describe for the first time the application of the density medium Nycodenz for the purification of eosinophils from peripheral blood. Nycodenz density gradient centrifugation is compared with Percoll and Metrizamide gradient centrifugation with special emphasis on cell yield, purity of cell suspensions, and functional integrity of separated cells. Percoll gradients provide purer preparations (mean value 94 ± 15%) of eosinophils from blood with moderate eosinophilia than Nycodenz or Metrizamide (58 ± 29 and 88 ± 13%, respectively). The recovery rates of eosinophil‐enriched fractions were low after Nycodenz centrifugation (29 ± 19%) in comparison to Metrizamide (60 ± 21%) or Percoll (70 ± 16%). Eosinophils (as neutrophils), prepared by the 3 techniques, function metabolically (superoxide anion generation) and in assays measuring phagocytosis (S. aureus, zymosan particles). Percoll gradient isolated eosinophils (as neutrophils) adhere to and immobilize larvae of Onchocerca volvulus.

Humoral responses to a secretory Onchocerca volvulus protein: differences in the pattern of antibody isotypes to recombinant Ov20/OvS1 in generalized and hyperreactive onchocerciasis.

The Onchocerca volvulus secretory protein Ov20/OvS1 represents a dominant antigen expressed in the infective larvae, microfilariae and adult stages of the parasite. The humoral responses to this protein have not yet been analysed in the polar clinical and immunological forms of onchocerciasis. Analysis by ELISA of class and subclass antibodies to Ov20/OvS1 in persons with the generalized or the hyperreactive form of onchocerciasis revealed similar strong responses of IgG1, IgG4 and IgM antibody levels in both forms of onchocerciasis and significant differences were observed in the IgE and IgA antibody classes. Computation of the ratios of antibodies showed that persons with the generalized form exhibited significantly higher ratios of IgG4 to IgG1, IgG4 to IgE, and IgM to IgE than patients with the hyperreactive form. To investigate the isotype recognition of antigenic sites on Ov20/OvS1 protein, three recombinantly expressed fragments (F1–3) of Ov20/OvS1 were probed using sera which strongly reacted with intact recombinant Ov20/OvS1. Epitope(s) on F1 comprising amino acid residues 1–63 were significantly recognized by IgG1 and IgE, while IgM recognized epitopes on all three fragments. The strongest reaction of IgM occurred with epitope(s) formed by residues 108–171 (F3). In contrast, IgG4 type antibodies were not reactive with either of the three OvS1 fragments, but they reacted with intact Ov20/OvS1 protein. Generalized onchocerciasis, unable to eliminate microfilariae, and hyperreactive onchocerciasis, with a high potency to eliminate or to reduce parasite loads, can be distinguished by a distinct pattern of isotype responses to Ov20/OvS1.

Eosinophils, eosinophil cationic protein and eosinophil-derived neurotoxin in serum and urine of patients with onchocerciasis coinfected with intestinal nematodes and in urinary schistosomiasis.

Eosinophils, eosinophil cationic protein (ECP), eosinophil-derived neurotoxin (EDN/EPX), myeloperoxidase (MPO) and IgE were measured in blood, serum and/or urine in Schistosoma haematobium- and Onchocerca volvulus-infected Guineans and O. volvulus- and S. haematobium-negative Guineans coinfected or infected with intestinal nematodes. The number of eosinophils and levels of eosinophil granule proteins but not of MPO were found to be strongly elevated in all Africans as compared to European controls. The highest serum ECP and serum and urinary EDN/EPX levels were observed in the hyperreactive form of onchocerciasis (sowda). Onchocerciasis patients and O. volvulus-negative Africans coinfected or infected with intestinal nematodes (hookworm and/or Ascaris lumbricoides) revealed higher serum granule protein concentrations and/or absolute eosinophil counts and urinary ECP than those without nematode infections. Statistical differences between both sections were found for the absolute eosinophil counts and for serum EDN/EPX and IgE in generalized onchocerciasis, and for urinary ECP in sowda, indicating stimulation of the eosinophil potential of O. volvulus-positive patients by coexistent hookworm infection. This worm species, in contrast to A. lumbricoides, causes especially high eosinophil counts and EDN/EPX and IgE levels. From these results it is concluded that in nematode diseases, ECP and EDN/EPX levels reflect the degree of antigenic stimulation, eosinophil activation and eosinophil turnover rates. Serum ECP and serum and urinary EDN/EPX may, therefore, serve as parameters to monitor helminth infection. Urinary ECP may be a marker of eosinophiluria secondary to urogenital manifestation of S. haematobium. It is elevated in hyperreactive onchocerciasis activated by intestinal nematodes.

Eosinophil granule proteins in serum and urine of patients with helminth infections and atopic dermatitis

Summary Eosinophil cationic protein (ECP) and eosinophil‐derived neurotoxin (EPX) are cytotoxic molecules involved in helminth infections and allergic reactions. Hitherto most clinical chemical studies have been concerned with the analysis of serum ECP in allergic diseases. The aim of this study was to examine whether serum as well as urine levels of these proteins are useful clinical chemical parameters in helminthiases and allergic diseases such as atopic dermatitis. Comparing these diseases under the same methodological conditions, levels of ECP and EPX were generally higher in helminthiases than in atopic dermatitis and non‐helminth, non‐allergic diseases. The highest levels of both proteins occurred in tropical worm diseases, in particular hookworm disease and onchocerciasis. When comparing helminthiases with allergic disorder, only hookworm disease (ECP and EPX) and onchocerciasis (EPX) exhibited significantly higher eosinophil cationic protein serum levels than atopic dermatitis. In patients with schistosomiasis mansoni and egg loads of > 1000–10 000 eggs/g stool (epg) EPX serum levels were significantly higher than in patients exhibiting loads < 1000 epg. Urinary analyses revealed only EPX to be present in measurable amounts. Levels of this protein were much higher in urine of patients with hookworm disease and onchocerciasis than in those with atopic dermatitis and in healthy controls. The results suggest that besides serum EPX, urinary EPX may be a useful clinical chemical parameter in eosinophilia of helminth and allergic aetiology.

Use of the recombinant Onchocerca volvulus protein Ov20/OvS1 for the immunodiagnostic differentiation between onchocerciasis and mansonelliasis and for the characterization of hyperreactive onchocerciasis (sowda).

Summary The protein Ov20/OvS1 was used as antigen in ELISA and Western blot in order to differentiate onchocerciasis from African mansonelliasis and to characterize the hyperreactive form of Onchocerca volvulus infection (sowda). The specificity of the IgG4 Western blot was 98% for the differentiation between persons with onchocerciasis and Mansonella microfilariae (mf) carriers (125 persons with M. perstans and 92 with M. streptocerca), whereas the IgG4 ELISA showed a specificity of 81% in 137 M. perstans mf carriers and 85% in 94 M. streptocerca mf carriers. The sensitivity of Ov20/OvS1 in identifying onchocerciasis using the IgG4 ELISA was 75% for 103 O. volvulus mf carriers with the generalized and 89% for 44 patients with the sowda form of onchocerciasis. IgE antibodies against OvS1 were found in 95% of 39 patients with hyperreactive onchocerciasis but only in 15% of 47 persons with the generalized form. Thus, Ov20/–OvS1 appears a promising candidate antigen for the diagnosis of onchocerciasis and in particular for the detection of the sowda type of disease.

Improved Randolph Stain for Direct Leukocyte Differentiation and Determination of Total Eosinophil Count in a Hemocytometer

Identification and quantification of eosinophilic granulocytes are commonly performed indirectly by total leukocyte count and white cell differentiation in smears or cytocentrifuge preparations. Using a combination of four dyes, phloxine, Biebrich scarlet, methylene blue, and crystal violet, at 50-800 micrograms/ml, we have substantially improved an earlier method for differentiating leukocytes in a hemocytometer. This direct method allowed a rapid and reliable enumeration of eosinophils and their differentiation from neutrophils, lymphocytes and monocytes in peripheral blood and leukocyte fractions. The results obtained using this stain correlated with the leukocyte counts calculated from May-Grünwald-Giemsa stained smears in 100 patients with eosinophilia of various etiologies (r = 0.95; p < 0.01). This simple method is a useful improvement for eosinophil enumeration in field studies and biological experiments where the purity of cell suspensions must be evaluated without delay. The method cannot be substituted for the commonly used indirect technique which also allows the identification of other leukocyte lineages and their precursors.